lesson 7 arrays cs 1 lesson 7 -- john cole1. arrays hold multiple values array: variable that can...
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CS 1 Lesson 7 -- John Cole 1
Lesson 7
Arrays
CS 1 Lesson 7 -- John Cole 2
Arrays Hold Multiple Values
• Array: variable that can store multiple values of the same type
• Values are stored in adjacent memory locations. If a variable is the name of a memory location, an array is the name of a group of them.
• Declared using [] operator:int tests[5];
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Array - Memory Layout
• The definition: int tests[5];
allocates the following memory:
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Array Terminology
In the definition int tests[5];• int is the data type of the array elements• tests is the name of the array• 5, in [5], is the size declarator. It shows
the number of elements in the array.• The size of an array is (number of elements) *
(size of each element)
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Array Terminology
• The size of an array is:– the total number of bytes allocated for it– (number of elements) * (number of bytes for
each element)• Examples:
int tests[5] is an array of 20 bytes, assuming 4 bytes for an intlong double measures[10]is an array of 80 bytes, assuming 8 bytes for a long double
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Size Declarators
• Named constants are commonly used as size declarators.
const int SIZE = 5;int tests[SIZE];
• This eases program maintenance when the size of the array needs to be changed.
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Accessing Array Elements
• Each element in an array is assigned a unique subscript.
• Subscripts start at 0
subscripts:
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Accessing Array Elements
• The last element’s subscript is n-1 where n is the number of elements in the array.
subscripts:
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Accessing Array Elements
• Array elements can be used as regular variables: tests[0] = 79;cout << tests[0];cin >> tests[1];tests[4] = tests[0] + tests[1];
• Arrays must be accessed via individual elements:cout << tests; // not legal
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Accessing Array Contents
• Can access element with a constant or literal subscript:cout << tests[3] << endl;
• Can use integer expression as subscript:int i = 5;cout << tests[i] << endl;
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Looping Through an Array
• Example – The following code defines an array, numbers, and assigns values 1 to n to each element:
const int ARRAY_SIZE = 5;int numbers[ARRAY_SIZE];
for (int count = 0; count < ARRAY_SIZE; count++) numbers[count] = count + 1;
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Default Initialization
• Global array all elements initialized to 0 by default
• Local array all elements uninitialized by default
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No Bounds Checking in C++
• When you use a value as an array subscript, C++ does not check it to make sure it is a valid subscript.
• In other words, you can use subscripts that are beyond the bounds of the array.
• This can corrupt memory and other variables, causing unpredictable results.
• When using Visual Studio in “debug” mode, there is some checking, but not like in Java.
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Example of no Bounds Checking
• The following code defines a three-element array, and then writes five values to it!
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Off-By-One Errors
• An off-by-one error happens when you use array subscripts that are off by one.
• This can happen when you start subscripts at 1 rather than 0:
// This code has an off-by-one error.const int SIZE = 100;int numbers[SIZE];for (int count = 1; count <= SIZE; count++) numbers[count] = 0;
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Array Initialization
• Arrays can be initialized with an initialization list:
const int SIZE = 5;int tests[SIZE] = {79,82,91,77,84};
• The values are stored in the array in the order in which they appear in the list.
• The initialization list cannot exceed the array size.
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Common Example
const int MONTHS = 12;int months[MONTHS] = {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31};if (year % 4 == 0) months[1] = 29;months[1] = year % 4 == 0 ? 29 : 28;
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Partial Array Initialization
• If array is initialized with fewer initial values than the size declarator, the remaining elements will be set to 0:
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Implicit Array Sizing
• Can determine array size by the size of the initialization list:int quizzes[]={12,17,15,11};
• Must use either array size declarator or initialization list at array definition
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Processing Array Contents
• Array elements can be treated as ordinary variables of the same type as the array
• When using ++, -- operators, don’t confuse the element with the subscript:tests[i]++; // add 1 to tests[i]tests[i++]; // increment i, no
// effect on tests
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Array Assignment
To copy one array to another,• Don’t try to assign one array to the other:
newTests = tests; // Won't work
• Instead, assign element-by-element:for (i = 0; i < ARRAY_SIZE; i++)
newTests[i] = tests[i];
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Printing the Contents of an Array
• You can display the contents of a character array by sending its name to cout:
char fName[] = "Henry";cout << fName << endl;
But, this ONLY works with character arrays!
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Printing the Contents of an Array
• For other types of arrays, you must print element-by-element:
for (i = 0; i < ARRAY_SIZE; i++) cout << tests[i] << endl;
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Summing and Averaging Array Elements
• Use a simple loop to add together array elements:int tnum;double average, sum = 0;for(tnum = 0; tnum < SIZE; tnum++)
sum += tests[tnum];• Once summed, can compute average:
average = sum / SIZE;
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Finding the Largest Value in an Array
int count;int largest;largest = numbers[0];for (count = 1; count < SIZE; count++){ if (numbers[count] > largest) largest = numbers[count];}
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Finding the Smallest Value in an Array
int count;int smallest;smallest = numbers[0];for (count = 1; count < SIZE; count++){ if (numbers[count] < smallest) smallest = numbers[count];}
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Partially-Filled Arrays
• If you don’t know how much data an array will be holding:–Make the array large enough to hold the
largest expected number of elements.–Use a counter variable to keep track of the
number of items stored in the array.
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Comparing Arrays• To compare two arrays, you must compare
element-by-elementconst int SIZE = 5;int firstArray[SIZE] = { 5, 10, 15, 20, 25 };int secondArray[SIZE] = { 5, 10, 15, 20, 25 };bool arraysEqual = true; // Flag variableint count = 0; // Loop counter variable// Compare the two arrays.while (arraysEqual && count < SIZE){ if (firstArray[count] != secondArray[count]) arraysEqual = false; count++;}if (arraysEqual) cout << "The arrays are equal.\n";else cout << "The arrays are not equal.\n";
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Arrays as Function Arguments• To pass an array to a function, just use the array
name:showScores(tests);
• To define a function that takes an array parameter, use empty [] for array argument:
void showScores(int []); // function prototype
void showScores(int tests[]) // function header
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Modifying Arrays in Functions
• Array names in functions are like reference variables – changes made to array in a function are reflected in actual array in calling function
• Need to exercise caution that array is not inadvertently changed by a function
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Two-Dimensional Arrays
• Can define one array for multiple sets of data• Like a table in a spreadsheet• Use two size declarators in definition:
const int ROWS = 4, COLS = 3;int exams[ROWS][COLS];
• First declarator is number of rows; second is number of columns
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Two-Dimensional Array Representation
• Two-Dimensional Array Representation
• Use two subscripts to access element:exams[2][2] = 86;
columns
rows
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2D Array Initialization
• Two-dimensional arrays are initialized row-by-row:const int ROWS = 2, COLS = 2;int exams[ROWS][COLS] = { {84, 78},
{92, 97} };
• Can omit inner { }, some initial values in a row – array elements without initial values will be set to 0 or NULL
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Two-Dimensional Array as Parameter, Argument
• Use array name as argument in function call:getExams(exams, 2);
• Use empty [] for row, size declarator for column in prototype, header:const int COLS = 2;// Prototypevoid getExams(int [][COLS], int);
// Headervoid getExams(int exams[][COLS], int rows)
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Summing All the Elements in a Two-Dimensional Array
• Given the following definitions:
const int NUM_ROWS = 5; // Number of rowsconst int NUM_COLS = 5; // Number of columnsint total = 0; // Accumulatorint numbers[NUM_ROWS][NUM_COLS] = {{2, 7, 9, 6, 4}, {6, 1, 8, 9, 4}, {4, 3, 7, 2, 9}, {9, 9, 0, 3, 1}, {6, 2, 7, 4, 1}};
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Summing All the Elements in a Two-Dimensional Array
// Sum the array elements.for (int row = 0; row < NUM_ROWS; row++){ for (int col = 0; col < NUM_COLS; col++) total += numbers[row][col];}
// Display the sum.cout << "The total is " << total << endl;
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Arrays with Three or MoreDimensions
• Can define arrays with any number of dimensions:short rectSolid[2][3][5];double timeGrid[3][4][3][4];
• When used as parameter, specify all but 1st dimension in prototype, heading:void getRectSolid(short [][3][5]);
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Dynamic Arrays
• You can allocate an array dynamically. Use this when you don’t know the dimensions at compile time
int* square = new int[order,order];square[iRow, iCol] = 0;
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Introduction to the STL vector
• A data type defined in the Standard Template Library (covered more in Chapter 16)
• Can hold values of any type:vector<int> scores;
• Automatically adds space as more is needed – no need to determine size at definition
• Can use [] to access elements
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Declaring Vectors• You must #include <vector>• Declare a vector to hold int element:
vector<int> scores;• Declare a vector with initial size 30:
vector<int> scores(30);• Declare a vector and initialize all elements to 0:
vector<int> scores(30, 0);• Declare a vector initialized to size and contents of
another vector:vector<int> finals(scores);
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Adding Elements to a Vector
• Use push_back member function to add element to a full array or to an array that had no defined size:scores.push_back(75);
• Use size member function to determine size of a vector:howbig = scores.size();
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Removing Vector Elements• Use pop_back member function to remove last
element from vector:scores.pop_back();
• To remove all contents of vector, use clear member function:
scores.clear();• To determine if vector is empty, use empty member
function:while (!scores.empty()) ...
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Other Useful Member Functions